用于查看病理切片的虚拟现实Powerwall与传统显微镜：一项实验性比较。

Virtual reality Powerwall versus conventional microscope for viewing pathology slides: an experimental comparison.

作者信息

Treanor Darren, Jordan-Owers Naomi, Hodrien John, Wood Jason, Quirke Phil, Ruddle Roy A

机构信息

Pathology and Tumour Biology, Leeds Institute of Molecular Medicine, University of Leeds, Leeds LS9 7TF, UK.

出版信息

Histopathology. 2009 Sep;55(3):294-300. doi: 10.1111/j.1365-2559.2009.03389.x.

DOI:10.1111/j.1365-2559.2009.03389.x

PMID:19723144

Abstract

AIMS

Virtual slides could replace the conventional microscope. However, it can take 60% longer to make a diagnosis with a virtual slide, due to the small display size and inadequate user interface of current systems. The aim was to create and test a virtual reality (VR) microscope using a Powerwall (a high-resolution array of 28 computer screens) for viewing virtual slides more efficiently.

METHODS AND RESULTS

A controlled user experiment was performed to compare the Powerwall with the microscope for four types of task: (i) a simple diagnosis, (ii) a decision about a lymph node, (iii) finding small objects, (iv) scoring a tissue microarray. User behaviour was recorded by video and questionnaire. Time taken to perform all four tasks and diagnostic confidence were similar using the Powerwall and conventional microscope.

CONCLUSIONS

After just a few minutes' familiarization, a VR Powerwall allowed tasks to be performed as quickly and confidently as a microscope. Behavioural data indicated how histopathologists should be trained to make the best use of the large display provided by the VR microscope. Together with the potential for further improvements in the design of the VR microscope, future virtual slide systems could out-perform conventional microscopes in histopathological diagnosis.

摘要

目的

虚拟切片有望取代传统显微镜。然而，由于当前系统的显示屏尺寸小且用户界面不完善，使用虚拟切片进行诊断所需的时间可能会延长60%。本研究旨在创建并测试一种使用巨幕投影墙（由28个计算机屏幕组成的高分辨率阵列）的虚拟现实（VR）显微镜，以便更高效地查看虚拟切片。

方法与结果

进行了一项对照用户实验，比较了巨幕投影墙和显微镜在四类任务中的表现：（i）简单诊断，（ii）对淋巴结做出判断，（iii）寻找小物体，（iv）对组织微阵列进行评分。通过视频和问卷记录用户行为。使用巨幕投影墙和传统显微镜完成所有四项任务所需的时间以及诊断信心相似。

结论

经过几分钟的熟悉后，VR巨幕投影墙能够像显微镜一样快速且自信地完成任务。行为数据表明了组织病理学家应如何接受培训以充分利用VR显微镜提供的大显示屏。随着VR显微镜设计的进一步改进潜力，未来的虚拟切片系统在组织病理学诊断方面可能会优于传统显微镜。

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用于查看病理切片的虚拟现实Powerwall与传统显微镜：一项实验性比较。

Virtual reality Powerwall versus conventional microscope for viewing pathology slides: an experimental comparison.

作者信息

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSIONS

目的

方法与结果

结论

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